Transcutaneous spinal cord electrical stimulation in human

Yuri Gerasimenko
Durée : 1371000
00
Yury Ph.D. spinal cord electrical stimulation in human of of Los USA Paris 2014 Transcutaneous spinal cord electrical stimulation in human
1_137.png Rythmogenesis in the Spinal Cord
of the Spinal Cord -j Activation of MN Locomotion a of the Spinal Cord and Neuromodulation of the Spinal Cord
to Noninvasive access to human locomotor circuitry
mental tSCS to activation of multisegmental tSCS to facilitate activation of locomotor circuitry
Design and interface of surface array device multiplexer ground 2.5cm surface array Design and interface of surface array device
of and Locomotion after a Motor Spinal Cord of a Human Sensory motor control of postural Locomotion after a Motor complete spinal cord injury of a human
can stepping in patient L tSCS can facilitate voluntary stepping movements in SCI patient
1_208.png ElectroEnabling motor control (eEMC)
THANKS by RFBR grant 2030 as as by a grant from the Russian Fund project Conclusions
Remarques et questions
  • Transcutaneous spinal cord electrical stimulation in human (0)
  • Rythmogenesis in the Spinal Cord (19000)
  • Neuromodulation of the Spinal Cord (95000)
  • Noninvasive access to human locomotor circuitry (218000)
  • multisegmental tSCS to facilitate activation of locomotor circuitry (432000)
  • Design and interface of surface array device (570000)
  • Sensory motor control of postural Locomotion after a Motor complete spinal cord injury of a human (684000)
  • tSCS can facilitate voluntary stepping movements in SCI patient (967000)
  • ElectroEnabling motor control (eEMC) (1139000)
  • Conclusions (1197000)
  • Remarques et questions (1241000)
Yuri Gerasimenko

Pavolov Institute, St-Petersburg, Russia

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